研究員
唐伯惠
文章來(lái)源: | 發(fā)布時(shí)間:2016-10-10 | 【打印】 【關(guān)閉】
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主要從事地表參數(shù)的遙感定量反演以及地表凈輻射的遙感估算方法研究。先后主持了973項(xiàng)目子課題、863重點(diǎn)項(xiàng)目課題、國(guó)家自然科學(xué)基金項(xiàng)目、中科院知識(shí)創(chuàng)新工程重要方向項(xiàng)目課題以及歐盟項(xiàng)目子課題等30余項(xiàng)。迄今共發(fā)表SCI論文63篇(第一/通訊23篇);獲國(guó)家授權(quán)專(zhuān)利24項(xiàng)(第一發(fā)明人10項(xiàng))、撰寫(xiě)專(zhuān)著1部,譯著1部。獲2009年中科院50篇“優(yōu)秀博士學(xué)位論文”、2010年全國(guó)百篇“優(yōu)秀博士學(xué)位論文提名獎(jiǎng)”、2012年中科院地理資源所“可楨杰出青年學(xué)者計(jì)劃”、2015年北京市科學(xué)技術(shù)三等獎(jiǎng)(第二完成人)、2017年教育部自然科學(xué)二等獎(jiǎng)(第二完成人)、2018年安徽省自然科學(xué)二等獎(jiǎng)(第三完成人)等。
研究領(lǐng)域和研究方向
研究領(lǐng)域:遙感機(jī)理與方法。
主要研究方向:地表凈輻射遙感反演、熱紅外地表溫度/地表發(fā)射率遙感反演、中紅外地表反射率/地表溫度/地表發(fā)射率遙感反演、植被熒光遙感反演、無(wú)人機(jī)遙感應(yīng)用等。
主要科研成果
(1)首次提出了僅利用衛(wèi)星遙感數(shù)據(jù)大氣頂部觀(guān)測(cè)值直接估算不同天氣狀況下地表短波凈輻射的新方法,首創(chuàng)了MODIS 數(shù)據(jù)大氣頂部窄通道表觀(guān)反射率向?qū)捦ǖ婪凑章兽D(zhuǎn)換模型,完全滿(mǎn)足了利用高空間分辨率衛(wèi)星數(shù)據(jù)計(jì)算地表短波凈輻射的遙感需求,為地表短波凈輻射的遙感估算研究開(kāi)辟了新的途徑。
(2)首次提出了僅利用衛(wèi)星傳感器大氣頂部觀(guān)測(cè)數(shù)據(jù)直接估算大氣下行輻射的新方法,創(chuàng)建了直接利用MODIS 傳感器大氣頂部熱紅外通道數(shù)據(jù)計(jì)算大氣下行輻射的遙感估算模型,實(shí)現(xiàn)了高分辨率大氣下行輻射的遙感精確反演。
(3)首次提出了白天中紅外數(shù)據(jù)中地表雙向反射率的雙通道遙感反演新方法,創(chuàng)建了白天中紅外通道地表雙向反射率遙感反演模型、地表方向發(fā)射率遙感反演模型以及地表溫度遙感反演模型,實(shí)現(xiàn)了中紅外數(shù)據(jù)反射輻射和發(fā)射輻射的有效分離;
(4)率先建立了窄通道發(fā)射率向?qū)捦ǖ腊l(fā)射率轉(zhuǎn)換模型,首次實(shí)現(xiàn)了全譜段地表發(fā)射率的遙感反演,為估算全波段地表發(fā)射率掃除了技術(shù)障礙;
(5)建立了沙塵氣溶膠情況下地表溫度反演誤差的改正模型、近地表大氣存在逆溫情況下地表溫度遙感反演模型以及高空薄云情況下地表溫度的遙感反演模型,提高了沙塵氣溶膠、近地表存在逆溫以及高空薄云情況下地表溫度的遙感反演精度;
(6)發(fā)展了我國(guó)新一代氣象衛(wèi)星(FY-2、FY-3)和高分衛(wèi)星(GF-5)熱紅外地表溫度的遙感反演方法,提出了地表溫度、地表發(fā)射率和大氣可降水汽含量分組的思路,創(chuàng)建了“通用分裂窗”地表溫度遙感反演模型,提高了地表溫度的遙感反演精度,為我國(guó)氣象衛(wèi)星和高分衛(wèi)星數(shù)據(jù)的遙感應(yīng)用提供了技術(shù)支持;
(7)完成了青藏高原地區(qū)雪蓋面積的遙感精確估算。與國(guó)際山地綜合發(fā)展中心(尼泊爾)合作,針對(duì)NASA提供的青藏高原地區(qū)雪蓋面積遙感估算產(chǎn)品精度不高的問(wèn)題,改進(jìn)了利用MODIS數(shù)據(jù)估算青藏高原地區(qū)雪蓋面積的遙感計(jì)算模型,實(shí)現(xiàn)了青藏高原地區(qū)雪蓋面積的遙感精確估算。
SCI論文
2006年
(1) Bo-Hui Tang, and Renhua Zhang, (2006), A direct method for estimating net surface shortwave radiation from MODIS data. Remote Sensing of Environment. 103(1), 115-126, DOI: 10.1016/j.rse.2006.04.008. (SCI)
2008年
(2) Bo-Hui Tang, (2008),Retrieval of land surface bidirectional reflectivity in the mid-infrared from MODIS channels 22 and 23. International Journal of Remote Sensing. 29(17-18): 4907-4925, DOI: 10.1080/01431160802036573. (SCI)
(3) Bo-Hui Tang, Yuyun Bi, and Jun Xia (2008), Generalized split-window algorithm for estimate of land surface temperature from Chinese geostationary FengYun meteorological satellite (FY-2C) data. Sensors. 8(2), 933-951, DOI:10.3390/s8020933. (SCI)
(4) Bo-Hui Tang, (2008), Estimation of instantaneous net surface longwave radiation from MODIS cloud-free data. Remote Sensing of Environment,112(9),3482-3492, DOI: 10.1016/j.rse.2008.04.004. (SCI)
(5) Lingling Ma, Chuanrong Li, Bo-Hui Tang, Lingli Tang, Yuyun Bi, Beiyan Zhou, Impact of Spatial LAI Heterogeneity on Estimate of Directional Gap Fraction from SPOT-Satellite Data. Sensors. 8(6),3767-3779, DOI: 10.3390/s8063767. (SCI)
2009年
(6) Bo-Hui Tang, and Yuyun Bi (2009), Estimation of land surface directional emissivity in mid-infrared channel around 4.0 μm from MODIS data. Optics Express, 17(5): 3173-3182, DOI:10.1364/OE.17.003173. (SCI)
(7) Ronglin Tang, Zhengming Wan, Yuyun Bi, Chenghu Zhou, Bo-Hui Tang, Guangjian Yan, and Xiaoyu Zhang. (2009). A review of current methodologies for regional evapotranspiration estimation from remotely sensed data. Sensors, 9(5): 3801-3853, DOI: 10.3390/s90503801. (SCI)
2010年
(8) RonglinTang, and Bo-Hui. Tang,(2010), An application of the Ts‐VI triangle method with enhanced edges determination for evapotranspiration estimation from MODIS data in arid and semi-arid regions: Implementation and Validation. Remote Sensing of Environment,114, 540-551, DOI: 10.1016/j.rse.2009.10.012. (SCI)
2011年
(9) Bo-Hui Tang, Hua Wu*, Chuanrong Li, Estimation of broadband surface emissivity from narrowband emissivities. Optics Express, 19(1), 185-192, DOI:10.1364/OE.19.000185. (SCI)
2012年
(10)Bo-Hui Tang*, Hua Wu, and Fran?oise Nerry. (2012). Validation of MODIS-derived bidirectional reflectivity retrieval algorithm in mid-infrared channel with field measurements. Optics Express, 20(16), 17760-17766, DOI:10.1364/OE.20.017760. (SCI)
(11)Hua Wu, Ning Wang, Li Ni, Bo-Hui Tang*.Practical retrieval of land surface emissivity spectra in 8-14μm from hyperspectral thermal infrared data. Optics Express,20(22), 24761-24768.(通訊作者)(SCI)
(12)Si-Bo Duan, Ning Wang, Hua Wu, Bo-Hui Tang. (2012). Evaluation of six land-surface diurnal temperature cycle models using clear-sky in situ and satellite data. Remote Sensing of Environment, 124, 15-25, DOI:10.1016/j.rse.2012.04.016. (SCI)
(13)Caixia Gao, Xiaoguang Jiang, Hua Wu, Bo-Hui Tang, Ziyang Li.Comparison of land surface temperatures from MSG-2/SEVIRI and Terra/MODIS. Journal of Applied Remote Sensing, 6(1), 063606, DOI:10.1117/1.JRS.6.063606. (SCI)
2013年
(14)Bo-Hui Tang*, Shrestha Basanta, Gaohuan Liu, Hua Ouyang, Gurung Deo Raj, Amarnath Giriraj, and Aung Khun San. (2013). Determination of snow cover from MODIS data for the Tibetan Plateau region. International Journal of Applied Earth Observation and Geoinformation, 21, 356-365, DOI:10.1016/j.jag.2012.07.014. (SCI)
(15)Xiaoming Zhou, Bo-Hui Tang*, Hua Wu . Estimating net surface longwave radiation from net surface shortwave radiation for cloudy skies. International Journal of Remote Sensing. 34(22), 8104–8117, DOI:10.1080/01431161.2013.832002.(通訊作者)(SCI)
(16)Bo-Hui Tang, Hua Wu, Huazhong Ren, Guangjian Yan, and Zhengming Wan, Isabel F. Triggo, and José A. Sobrino. (2013), Satellite-Derived Land Surface Temperature: Current Status and Perspectives, Remote Sensing of Environment, 131,14-37, DOI: 10.1016/j.rse.2012.12.008. (SCI)
(17)Hua Wu, Bo-Hui Tang, Impact of nonlinearity and discontinuity on the spatial scaling effects of leaf area index retrieved from remotely sensed data. International Journal of Remote Sensing, 34(9-10), 3503-3519, DOI:10.1080/01431161.2012.716537. (SCI)
(18)Caixia Gao, Bo-Hui Tang, Hua Wu, Xiaoguang Jiang*,A generalized split-window algorithm for land surface temperature estimation from MSG-2/SEVIRI data. International Journal of Remote Sensing, 34(12), 4182–4199, DOI: 10.1080/01431161.2013.773408. (SCI)
(19)Si-Bo Duan,Bo-Hui Tang, Hua Wu,Lingling Ma, Enyu Zhao and Chuanrong Li. (2013). Land surface reflectance retrieval from hyperspectral data collected by an unmanned aerial vehicle over the Baotou test site. PLOS ONE. 8(6): e66972, DOI:10.1371/journal.pone.0066972. (SCI)
(20)Zenglin Liu, Hua Wu*, Bo-Hui Tang, Shi Qiu,Atmospheric corrections of passive microwave data for estimating land surface temperature. Optics Express, 21(13), 15654-15663, DOI:10.1364/OE.21.015654. (SCI)
(21)Ning Wang, Bo-Hui Tang, Funian Zeng, and Chuanrong Li. (2013). Retrieval of atmospheric and land surface parameters from satellite-based thermal infrared hyperspectral data using a neural network technique. International Journal of Remote Sensing,34(9-10), 3485-3502, DOI: 10.1080/01431161.2012.716536. (SCI)
(22)Wei Zhao,Hua Wu, Bo-Hui Tang, Xiaoyu Zhang, Xiaoning Songand Guoqing Zhou. (2013). Determination of bare surface soil moisture from combined temporal evolution of land surface temperature and net surface shortwave radiation. Hydrological Processes,27(19), 2825-2833, DOI: 10.1002/hyp.9410. (SCI)
(23)Jing Lu, Ronglin Tang, Bo-Hui Tang, Hua Wu, Fengting Yang, Jelila Labed, and Guoqing Zhou. (2013). Evaluating the SEBS-estimated evaporative fraction from MODIS data for a complex underlying surface. Hydrological Processes,27(22), 3139-3149, DOI: 10.1002/hyp.9440. (SCI)
(24)Hua Wu, Ning Wang, Shi Qiu, Sobrino J.A., Zhengming Wan, Bo-Hui Tang, and Guangjian Yan. (2013). Land surface emissivity retrieval from satellite data. International Journal of Remote Sensing, 34(9-10), 3084-3127, DOI:10.1080/01431161.2012.716540. (SCI)
(25)Si-Bo Duan,Hua Wu, Bo-Hui Tang, Xiaoguang Jiang, and Guoqing Zhou. (2013). Modeling of Day-to-Day Temporal Progression of Clear-Sky Land Surface Temperature. IEEE Geoscience and Remote Sensing Letters, 10(5), 1050-1054, DOI:10.1109/LGRS.2012.2228465. (SCI)
(26)Hua Wu, Li Ni, Ning Wang, Yonggang Qian, Bo-Hui Tang (2013), Estimation of atmospheric profiles from hyperspectral infrared IASI sensor. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 6(3), 1485-1494. (SCI)
2014年
(27)Jiao Wang, Bo-Hui Tang*, Xiaoyu Zhang, Hua Wu, (2014). Estimation of surface longwave radiation over the Tibetan Plateau region using MODIS data for cloud-free skies. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing. 7(9), 3695-3703, DOI: 10.1109/JSTARS.2014.2320585.(通訊作者)(SCI)
(28)Si-Bo Duan, Hua Wu, Bo-Hui Tang, Lingling Ma, Enyu Zhao and Chuanrong Li. (2014). Inversion of the PROSAIL model to estimate leaf area index of maize, potato, and sunflower fields from unmanned aerial vehicle hyperspectral data. International Journal of Applied Earth Observation and Geoinformation, 26, 12-20, doi: 10.1016/j.jag.2013.05.007. (SCI)
(29)Si-Bo Duan, Bo-Hui Tang, Hua Wu, and Ronglin Tang. (2014). Generation of a time-consistent land surface temperature product from MODIS data. Remote Sensing of Environment, 140: 339-349, DOI: 10.1016/j.rse.2013.09.003. (SCI)
(30)ZengLin Liu, Hua Wu*, Bo-Hui Tang, Shi Qiu, (2014), An empirical relationship of bare soil microwave emissions between vertical and horizontal polarization at 10.65 GHz. IEEE Geoscience and Remote Sensing Letters,PP(99), 1-5, DOI:10.1109/LGRS.2013.2295927. (SCI)
(31)CaiXia Gao, Shi Qiu, Bo-Hui Tang, Hua Wu and Xiaoguang Jiang*, (2014). An improved algorithm for retrieving land surface emissivity and temperature from MSG-2/SEVIRI data. IEEE Transactions on Geoscience and Remote Sensing, 52(6), 3175-3191, DOI: 10.1109/TGRS.2013.2271510. (SCI)
(32)Jiangtao Hou, Gensuo Jia*, Tianbao Zhao, Hesong Wang, and Bo-Hui Tang. (2014). Satellite-based estimation of daily average net radiation under clear-sky conditions. Advances in Atmospheric Sciences, 31(3), 705-720, DOI: 10.1007/s00376-013-3047-6. (SCI)
(33)Dianjun Zhang, Ronglin Tang*, Wei Zhao, Bo-Hui Tang, Hua Wu, Kun Shao, (2014). Surface Soil water content estimation from thermal remote sensing based on the temporal variation of land surface temperature. Remote Sensing, 6, 3170-3187, doi:10.3390/rs6043170. (SCI)
(34)Si-Bo Duan,Bo-Hui Tang, Hua Wu, and Ronglin Tang, Yuyun Bi, Guoqing Zhou. (2014). Estimation of diurnal cycle of land surface temperature at high temporal and spatial resolution from clear-sky MODIS data. Remote Sensing, 6, 3247-3262, DOI:10.3390/rs6043247. (SCI)
(35)Si-Bo Duan,Bo-Hui Tang, Hua Wu, and Ronglin Tang. (2014). Direct estimation of land-surface diurnal temperature cycle model parameters from MSG-SEVIRI brightness temperatures under clear sky conditions. Remote Sensing of Environment, 150, 34-43. (SCI)
2015年
(36)Bo-Hui Tang, Kun Shao,Hua Wu, Fran?oise Nerry, and Guoqing Zhou. (2015). Estimation and validation of land surface temperature from Chinese second generation polar-orbiting FY-3A VIRR data. Remote Sensing, 7, 3250-3273, DOI: 10.3390/rs70303250. (SCI)
(37)Bo-Hui Tang, Kun Shao, Hua Wu, and Ronglin Tang. (2015). An improved NDVI-based threshold method for estimating land surface emissivity using MODIS satellite data. International Journal of Remote Sensing, 36(19-20), 4864-4878, DOI: 10.1080/01431161.2015.1040132. (SCI)
(38)Xiwei Fan, Bo-Hui Tang*, Hua Wu, Guangjian Yan, Guoqing Zhou, Kun Shao, and Yuyun Bi. (2015). Extension of the generalized split-Window algorithm for land surface temperature retrieval to atmospheres with heavy dust aerosol loading, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 8(2), 825-834, DOI:10.1109/JSTARS.2014.2358584.(通訊作者)(SCI)
(39)Xiwei Fan, Bo-Hui Tang, Hua Wu, Guangjian Yan, (2015). A three-channel algorithm for retrieving nighttime land surface temperature under thin cirrus clouds. International Journal of Remote Sensing, 36(19-20), 4836-4863, DOI: 10.1080/01431161.2015.1047051. (SCI)
(40)Xiwei Fan, Bo-Hui Tang, Hua Wu, Guangjian Yan*,(2015). Daytime land surface temperature extraction from MODIS thermal infrared data under cirrus clouds. Sensors, 15(5), 9942-9961, DOI:10.3390/s150509942. (SCI)
(41)Dianjun Zhang, Ronglin Tang*, Bo-Hui Tang, Hua Wu, (2015). A simple method for soil moisture determination from LST–VI feature space using non-linear interpolation based on thermal infrared remotely sensed data, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 8(2), 638-648, DOI: 10.1109/JSTARS.2014.2371135. (SCI)
(42)Ting-ting Wang, Bo-Hui Tang, Wei-qi Sun, and Yun-sheng Zhao*. (2015). Research on the Thermal Infrared Polarization Properties of Fresh Snow, Spectroscopy and Spectral Analysis, 35(7), 1848-1853. DOI: 10.3964/j.issn.1000-0593(2015)07-1848-0. (SCI)
(43)Ronglin Tang, Kun Shao, Hua Wu, Bo-Hui Tang, Guoqing Zhou, and Li Zhang. (2015). Multiscale validation of the 8-day MOD16 evapotranspiration product using flux data collected in China. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 8(4):1478-1486, DOI:10.1109/JSTARS.2015.2420105. (SCI)
(44)Ronglin Tang, Bo-Hui Tang, Hua Wu, (2015). On the feasibility of temporally upscaling instantaneous evapotranspiration using weather forecast information. International Journal of Remote Sensing, 36(19-20), 4918-4935, DOI:10.1080/01431161.2015.1029597. (SCI)
(45)Si-Bo Duan, Bo-Hui Tang, Hua Wu, Ronglin Tang, and Yuyun Bi. (2015). Atmospheric Correction of High Spatial Resolution Satellite Images with Adjacency Effects: Application to EO-1 ALI Data. International Journal of Remote Sensing, 36(19-20), 5061-5074, DOI:10.1080/01431161.2015.1026425. (SCI)
(46)Suchuang Di, Ronglin Tang, Hua Wu, Bo-Hui. Tang, Jing Lu, (2015), Integrating two layers of soil moisture parameters into the MOD16 algorithm to improve evapotranspiration estimations. International Journal of Remote Sensing, 36(19-20), 4953-4971, DOI: 10.1080/01431161.2015.1040136. (SCI)
(47)Dianjun Zhang, Ronglin Tang, Bo-Hui Tang, Hua Wu, Jing Lu and kun Shao. (2015). Validation of a practical normalized soil moisture model with in situ measurements in humid and semiarid regions. International Journal of Remote Sensing, 36(19-20), 5015-5030, DOI:10.1080/01431161.2015.1055610. (SCI)
2016年
(48)Bo-Hui Tang*, and Jie Wang. (2016). A physics-based method to retrieve land surface temperature from MODIS daytime midinfrared data. IEEE Transactions on Geoscience and Remote Sensing, 54(8), 4672-4679. DOI: 10.1109/TGRS.2016.2548500. (SCI)
(49)Yonggang Qian*, Ning Wang, Lingling Ma, Yaokai Liu, Hua Wu, Bo-Hui Tang, Lingli Tang, and Chuanrong Li. (2016). Land surface temperature retrieved from airborne multispectral scanner mid-Infrared and thermal-Infrared data, Optics Express, 24(2), 257-269, DOI:10.1364/OE.24.00A257. (SCI)
(50)Fang-Cheng Zhou, Xiaoning Song*, Pei Leng, Hua Wu, Bo-Hui Tang. (2016). An algorithm for retrieving precipitable water vapor over land based on passive microwave satellite data. Advances in Meteorology, Volume 2016, Article ID 4126393, 11pages, DOI:10.1155/2016/4126393. (SCI)
2017年
(51)Bo-Hui Tang*, Chuan Zhan, Hua Wu and Ronglin Tang. (2017). Estimation of land surface temperature from MODIS data for the atmosphere with air temperature inversion profile. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 10(6), 2976-2983. DOI: 10.1109/JSTARS.2016.2634629. (SCI)
(52)Chunlei Wang, Bo-Hui Tang*, Hua Wu, Ronglin Tang, (2017). Estimation of downwelling surface longwave radiation under heavy dust aerosol sky. Remote Sensing, 9, 207, DOI: 10.3390/rs9030207.(通訊作者)(SCI)
(53)Chunlei Wang, Bo-Hui Tang*, Xin Huo, (2017). New method to estimate surface upwelling long-wave radiation from MODIS cloud-free data. Optics Express, 25(12), A574-A588. DOI: 10.1364/OE.25.00A574. (通訊作者)(SCI)
(54)Xiaoning Song, Yawei Wang*, Bo-Hui Tang, Pei Leng, Sun Chuan, Jian Peng, and Alexander Loew. (2017). Estimation of land surface temperature using FengYun-2E (FY-2E) data: A case study of the source area of the Yellow River. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 10(8), 3744-3751. DOI: 0.1109/JSTARS.2017.2682961. (SCI)
(55)Fang-Cheng Zhou,Hua Wu*, Bo-Hui Tang, Ronglin Tang, Xiaoning Song, Guangjian Yan. (2017). Retrieving K-Band Instantaneous Microwave Land Surface Emissivity Based on Passive Microwave Brightness Temperature and Atmospheric Precipitable Water Vapor Data. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 10(12), 5608-5617. DOI: 10.1109/JSTARS.2017.2763167. (SCI)
2018年
(56)Bo-Hui Tang*. (2018). Nonlinear split-window algorithms for estimating land and sea surface temperatures from simulated Chinese Gaofen-5 satellite data. IEEE Transactions on Geoscience and Remote Sensing. DOI: 10.1109/TGRS.2018.2833859. (SCI)
(57)Bo-Hui Tang, (2018). Evaluation of ASTER emissivity product with field spectral radiance measurements for natural surfaces. International Journal of Remote Sensing. DOI: 10.1080/01431161.2018.1455243. (SCI)
(58)Xiangyang Liu, Bo-Hui Tang*, (2018). Evaluation of three parametric models for estimating directional thermal radiation from simulation, airbornen, and satellite data. Remote Sensing, 10, 420:1-18. DOI: 10.3390/rs10030420. (通訊作者) (SCI)
(59)Ziyang Zhang, Bo-Hui Tang*, (2018). Retrieval of leaf water content from remotely sensed data using a vegetation index model constructed with shortwave infrared reflectances. International Journal of Remote Sensing. DOI: 10.1080/01431161.2018.1471553. (通訊作者) (SCI)
(60)Xiwei Fan, Gaozhong Nie, Hua Wu, Bo-Hui Tang*. (2018). Land surface temperature retrieval from MODIS three thermal infrared channels data for dust aerosol contained skies. Optics Express, 26(4), 4148-4165. DOI: 10.1364/OE.26.004148. (通訊作者) (SCI)
(61)Hong Chen, Hua Wu*, Bo-Hui Tang, Ronglin Tang, and Guangjian Yan. (2018). Spatial up-scaling of remotely sensed leaf area index based on discrete wavelet transform. International Journal of Remote Sensing. DOI: 10.1080/01431161.2018.1460515. (SCI)
(62)Si-Bo Duan, Chenguang Wang, Shuting Zhang, Bo-Hui Tang, Pei Leng, and Mao-Fang Gao. (2018). Land surface temperature retrieval from Landsat 8 single channel thermal infrared data in combination with NCEP reanalysis data and ASTER GED product. International Journal of Remote Sensing. DOI: 10.1080/01431161.2018.1460513. (SCI)
(63)Ronglin Tang, Xing Huo, Yazhen Jiang, Bo-Hui Tang, and Hua Wu. (2018). A re-examination of two methods for estimating daily evapotranspiration from remotely sensed instantaneous observations. International Journal of Remote Sensing. DOI: 10.1080/01431161.2018.1465615. (SCI)
學(xué)術(shù)專(zhuān)著
(1)唐伯惠, 吳驊, 唐榮林. 熱紅外地表發(fā)射率遙感反演研究. 北京: 科學(xué)出版社, 2014.8. ISBN: 978-7-03-041326-0.(專(zhuān)著)
(2)唐伯惠. 遙感物理與技術(shù)概論(原著第二版). 北京: 中國(guó)建筑工業(yè)出版社, 2018.8. ISBN:978-7-112-22669-6,著作權(quán)合同登記圖字: 01-2018-3839號(hào). (譯著)
國(guó)家授權(quán)專(zhuān)利:
(1)一種同時(shí)確定地表窄波段和寬波段比輻射率的方法及裝置,專(zhuān)利號(hào):ZL201210431019.2,授權(quán)日:2014年9月10日,證書(shū)號(hào):第1477078號(hào),發(fā)明人:唐伯惠,吳驊,唐榮林。
(2)一種輕型便攜式野外全息觀(guān)測(cè)系統(tǒng)裝置;專(zhuān)利號(hào):ZL201520398289.7,授權(quán)日:2015年12月16日,證書(shū)號(hào):第4842636號(hào),發(fā)明人:唐伯惠,王界。
(3)一種熱紅外載荷便攜式野外定標(biāo)及水面溫度驗(yàn)證系統(tǒng)裝置;專(zhuān)利號(hào):ZL201310582459.2,授權(quán)日:2016年01月06日,證書(shū)號(hào):第1913446號(hào),發(fā)明人:唐伯惠,劉偉偉,吳驊,唐榮林,彭碩。
(4)一種便攜式全自動(dòng)多角度二維一體化旋轉(zhuǎn)平臺(tái)裝置;專(zhuān)利號(hào):ZL201620001655.5,授權(quán)日:2016年06月15日,證書(shū)號(hào):第5289482號(hào),發(fā)明人:唐伯惠。
(5)一種多角度全自動(dòng)地表精細(xì)發(fā)射率譜采集系統(tǒng)裝置,專(zhuān)利號(hào):ZL201410441813.4,授權(quán)日:2017.01.18,證書(shū)號(hào):第2353213號(hào),發(fā)明人:唐伯惠,彭碩,吳驊,唐榮林,王界。
(6)一種三維一體化野外數(shù)據(jù)采集裝置,申請(qǐng)?zhí)柣驅(qū)@?hào):ZL201720132643.0,授權(quán)日:2017年10月11日,證書(shū)號(hào):第6593834號(hào),發(fā)明人:唐伯惠。
(7)一種適用于不同冠層高度的植被熒光測(cè)量輔助裝置,專(zhuān)利號(hào):ZL201720424259.8,授權(quán)日:2017年10月10日,證書(shū)號(hào):第6596569號(hào),發(fā)明人:唐伯惠。
(8)一種利用中紅外遙感數(shù)據(jù)確定地表溫度的方法及裝置,專(zhuān)利號(hào):ZL201610009997.6,授權(quán)日:2017年12月05日,證書(shū)號(hào):第2727719號(hào),發(fā)明人:唐伯惠.
(9)一種可移動(dòng)可升降的植被冠層熒光多角度測(cè)量裝置,專(zhuān)利號(hào):ZL201721675836.7,授權(quán)日:2018年6月01日,證書(shū)號(hào):第7429246號(hào),發(fā)明人:唐伯惠。
(10)一種熱紅外地表輻射溫度多角度測(cè)量裝置,專(zhuān)利號(hào):ZL201721894518.X,授權(quán)日:2018年7月31日,證書(shū)號(hào):第7658699號(hào),發(fā)明人:唐伯惠。
(11)一種102F傅里葉光譜儀的適配器及使用方法;專(zhuān)利號(hào):ZL201210363506.x,授權(quán)日:2014年8月13日,證書(shū)號(hào):第1460831號(hào),發(fā)明人:張仁華,田靜,蘇紅波,楊永民,陳少輝,唐伯惠,吳驊,孫曉敏,唐新齋,朱治林。
(12)雙黑體箱調(diào)溫水浴比輻射測(cè)定儀及其測(cè)定方法;專(zhuān)利號(hào):ZL201210363469.2,授權(quán)日:2016年3月2日,證書(shū)號(hào):第1975298號(hào),發(fā)明人:張仁華,孫曉敏,田靜,朱治林,唐新齋,蘇紅波,陳少輝,唐伯惠,吳驊,范熙偉。
(13)一種適用于傅里葉光譜儀積分球的倒向器及制作和測(cè)試方法;專(zhuān)利號(hào):ZL201210361654.8,授權(quán)日:2015年9月30日,證書(shū)號(hào):第1806473號(hào),發(fā)明人:田靜,張仁華,于靜潔,蘇紅波,孫曉敏,陳少輝,唐新齋,榮媛,楊永民,唐伯惠,吳驊。
(14)一種野外便攜式高光譜地表發(fā)射率輔助測(cè)量裝置;專(zhuān)利號(hào):ZL201420385980.7,授權(quán)日:2014.12.17,證書(shū)號(hào):第4001517號(hào),發(fā)明人:吳驊,張雨澤,房世峰,姜小光,唐伯惠,唐榮林。
(15)星載多光譜紅外傳感器交叉輻射定標(biāo)方法;專(zhuān)利號(hào):ZL201410019921.2,授權(quán)日:2015年11月5日,證書(shū)號(hào):第1940158號(hào),發(fā)明人:吳驊,李小濤,唐伯惠,唐榮林,倪麗,房世峰。
(16)一種野外便攜式高光譜地表發(fā)射率輔助測(cè)量裝置及方法;專(zhuān)利號(hào):ZL201410332475.0,授權(quán)日:2016年2月3日,證書(shū)號(hào):第1939600號(hào),發(fā)明人:吳驊,張雨澤,房世峰,李小濤,姜小光,唐伯惠,唐榮林。
(17)一種輕便高光譜地表發(fā)射率無(wú)損測(cè)定裝置;專(zhuān)利號(hào):ZL201520977814.0,授權(quán)日:2016.05.18,證書(shū)號(hào):第5217568號(hào),發(fā)明人:吳驊,張雨澤,倪麗,唐伯惠,唐榮林,房世峰。
(18)一種校正尺度效應(yīng)的中低分辨率遙感產(chǎn)品真值獲取方法;專(zhuān)利號(hào):ZL201510728112.3,授權(quán)日:2018年3月16日,證書(shū)號(hào):第2846541號(hào),發(fā)明人:吳驊,房世峰,倪麗,唐伯惠,唐榮林
(19)一種FY-3C被動(dòng)微波數(shù)據(jù)估算土壤濕度的方法;專(zhuān)利號(hào):ZL201610009067.0,授權(quán)日:2018年5月25日,證書(shū)號(hào):第2936516號(hào),發(fā)明人:韓曉靜,唐榮林,段四波,唐伯惠,吳驊,冷佩。
(20)一種從被動(dòng)微波數(shù)據(jù)估算瞬時(shí)地表發(fā)射率的方法;專(zhuān)利號(hào):ZL201610266664.1,授權(quán)日:2018年7月27日,證書(shū)號(hào):第3013596號(hào),發(fā)明人:吳驊,周芳成,段四波,唐伯惠,唐榮林。
(21)一種輕便高光譜地表發(fā)射率無(wú)損測(cè)定裝置及優(yōu)化測(cè)定方法;專(zhuān)利號(hào):ZL201510862743.4,授權(quán)日:2018年7月31日,證書(shū)號(hào):第3016299號(hào),發(fā)明人:吳驊,張雨澤,倪麗,唐伯惠,唐榮林,房世峰。
(22)一種自動(dòng)確定全天無(wú)云和部分有云天氣情況的方法;專(zhuān)利號(hào):ZL201610514695.4,授權(quán)日:2018年7月24日,證書(shū)號(hào):第3009267號(hào),發(fā)明人:唐榮林,姜亞珍,唐伯惠,吳驊。
(23)一種基于端元信息模型估算土壤和植被蒸散發(fā)的方法;專(zhuān)利號(hào):ZL201611234428.8,授權(quán)日:2018年10月26日,證書(shū)號(hào):第3124413號(hào),發(fā)明人:唐榮林,姜亞珍,唐伯惠,吳驊,劉萌,王桐。
(24)一種有效的MODIS地表溫度角度校正方法;專(zhuān)利號(hào):ZL201710060302.1,授權(quán)日:2019年01月29日,證書(shū)號(hào):第3236366號(hào),發(fā)明人:唐榮林,姜亞珍,唐伯惠,吳驊,邸蘇闖,劉萌,王桐。
招生專(zhuān)業(yè):地圖學(xué)與地理信息系統(tǒng)。
招生方向:地表凈輻射遙感反演;熱紅外地表溫度/發(fā)射率遙感反演;植被熒光遙感反演;無(wú)人機(jī)遙感應(yīng)用等。
聯(lián)系方式:010-64889684,tangbh@igsnrr.ac.cn
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